Y Liu1,2, D Gebrezgiabhier3,4, Y Zheng2,5, A J Shih2, N Chaudhary6, A S Pandey3, J L A Larco7, S I Madhani7, M Abbasi1, A H Shahid7, R A Quinton8, R Kadirvel1, W Brinjikji1, D F Kallmes1, L E Savastano9,7. 1. From the Departments of Radiology (Y.L., M.A., R.K., W.B., D.F.K.). 2. Departments of Mechanical Engineering (Y.L., Y.Z., A.J.S.). 3. Neurosurgery (D.G., A.S.P., L.E.S.). 4. UCSF Graduate Program in Bioengineering (D.G.), University of California Berkeley, San Francisco, California. 5. Department of Mechanical Engineering (Y.Z.), Worcester Polytechnic Institute, Worcester, Massachusetts. 6. Radiology (N.C.), University of Michigan, Ann Arbor, Michigan. 7. Neurosurgery (J.L.A.L., S.I.M., A.H.S., L.E.S.). 8. Division of Anatomic Pathology (R.A.Q.), Mayo Clinic, Rochester, Minnesota. 9. Neurosurgery (D.G., A.S.P., L.E.S.) Savastano.Luis@mayo.edu.
Abstract
BACKGROUND AND PURPOSE: Aspiration thrombectomy has become a preferred approach to recanalize large-vessel occlusion in stroke with a growing trend toward using larger-bore catheters and stronger vacuum pumps. However, the mechanical response of the delicate cerebral arteries to aspiration force has not been evaluated. Here, we provide preclinical and clinical evidence of intracranial arterial collapse in aspiration thrombectomy. MATERIALS AND METHODS: We presented a clinical case of arterial collapse with previously implanted flow diverters. We then evaluated the effect of vacuum with conventional aspiration catheters (with and without stent retrievers) in a rabbit model (n = 3) using fluoroscopy and intravascular optical coherence tomography. Then, in a validated human cadaveric brain model, we conducted 168 tests of direct aspiration thrombectomy following an experimental design modifying the catheter inner diameter (0.064 inch, 0.068 inch, and 0.070 inch), cerebral perfusion pressures (mean around 60 and 90 mm Hg), and anterior-versus-posterior circulation. Arterial wall response was recorded and graded via direct transluminal observation. RESULTS: Arterial collapse was observed in both the patient and preclinical experimental models. In the human brain model, arterial collapse was observed in 98% of cases in the M2 and in all the cases with complete proximal flow arrest. A larger bore size of the aspiration catheter, a lower cerebral perfusion pressure, and the posterior circulation in comparison with the anterior circulation were associated with a higher probability of arterial collapse. CONCLUSIONS: Arterial collapse does occur during aspiration thrombectomy and is more likely to happen with larger catheters, lower perfusion pressure, and smaller arteries.
BACKGROUND AND PURPOSE: Aspiration thrombectomy has become a preferred approach to recanalize large-vessel occlusion in stroke with a growing trend toward using larger-bore catheters and stronger vacuum pumps. However, the mechanical response of the delicate cerebral arteries to aspiration force has not been evaluated. Here, we provide preclinical and clinical evidence of intracranial arterial collapse in aspiration thrombectomy. MATERIALS AND METHODS: We presented a clinical case of arterial collapse with previously implanted flow diverters. We then evaluated the effect of vacuum with conventional aspiration catheters (with and without stent retrievers) in a rabbit model (n = 3) using fluoroscopy and intravascular optical coherence tomography. Then, in a validated human cadaveric brain model, we conducted 168 tests of direct aspiration thrombectomy following an experimental design modifying the catheter inner diameter (0.064 inch, 0.068 inch, and 0.070 inch), cerebral perfusion pressures (mean around 60 and 90 mm Hg), and anterior-versus-posterior circulation. Arterial wall response was recorded and graded via direct transluminal observation. RESULTS: Arterial collapse was observed in both the patient and preclinical experimental models. In the human brain model, arterial collapse was observed in 98% of cases in the M2 and in all the cases with complete proximal flow arrest. A larger bore size of the aspiration catheter, a lower cerebral perfusion pressure, and the posterior circulation in comparison with the anterior circulation were associated with a higher probability of arterial collapse. CONCLUSIONS: Arterial collapse does occur during aspiration thrombectomy and is more likely to happen with larger catheters, lower perfusion pressure, and smaller arteries.
Authors: Yang Liu; Yihao Zheng; Adithya S Reddy; Daniel Gebrezgiabhier; Evan Davis; Joshua Cockrum; Joseph J Gemmete; Neeraj Chaudhary; Julius M Griauzde; Aditya S Pandey; Albert J Shih; Luis E Savastano Journal: J Neurosurg Date: 2020-02-28 Impact factor: 5.115
Authors: Rimal Hanif Dossani; Michael K Tso; Muhammad Waqas; Hamid H Rai; Gary B Rajah; Adnan H Siddiqui Journal: J Neurointerv Surg Date: 2020-06-23 Impact factor: 5.836
Authors: Josser E Delgado Almandoz; Yasha Kayan; Adam N Wallace; Ronald M Tarrel; Jennifer L Fease; Jill Marie Scholz; Anna M Milner; Pezhman Roohani; Maximilian Mulder; Mark L Young Journal: J Neurointerv Surg Date: 2018-07-03 Impact factor: 5.836
Authors: Aquilla S Turk; Adnan Siddiqui; Johanna T Fifi; Reade A De Leacy; David J Fiorella; Eugene Gu; Elad I Levy; Kenneth V Snyder; Ricardo A Hanel; Amin Aghaebrahim; B Keith Woodward; Harry R Hixson; Mohammad I Chaudry; Alejandro M Spiotta; Ansaar T Rai; Donald Frei; Josser E Delgado Almandoz; Mike Kelly; Adam Arthur; Blaise Baxter; Joey English; Italo Linfante; Kyle M Fargen; J Mocco Journal: Lancet Date: 2019-03-09 Impact factor: 79.321
Authors: Adithya S Reddy; Yang Liu; Joshua Cockrum; Daniel Gebrezgiabhier; Evan Davis; Yihao Zheng; Aditya S Pandey; Albert J Shih; Luis E Savastano Journal: J Neurosurg Date: 2020-04-03 Impact factor: 5.115
Authors: Yang Liu; Daniel Gebrezgiabhier; Adithya S Reddy; Evan Davis; Yihao Zheng; Jorge L Arturo Larco; Albert J Shih; Aditya S Pandey; Luis E Savastano Journal: J Neurosurg Date: 2021-06-04 Impact factor: 5.115
Authors: Yang Liu; Mehdi Abbasi; Jorge L Arturo Larco; Ramanathan Kadirvel; David F Kallmes; Waleed Brinjikji; Luis Savastano Journal: J Neurointerv Surg Date: 2021-03-15 Impact factor: 8.572